scholarly journals Hydration Kinetics for Alkaline Activation of Slag from Color Variation Data

Molecules ◽  
2021 ◽  
Vol 26 (12) ◽  
pp. 3764
Author(s):  
Zhaoyang Ding ◽  
Jinghai Zhou ◽  
Qun Su ◽  
Hong Sun ◽  
Yichao Zhang ◽  
...  
Keyword(s):  
Color Variation ◽  
Reaction Parameters ◽  
Hydration Kinetics ◽  
Image Analysis Technique ◽  
Analysis Technique ◽  
Variation Data ◽  
Pixel Value ◽  
Activated Slag ◽  
Kinetics Of ◽  
Reaction Speed

In this study, we explore a new method based on color variation data to derive the kinetics of the entire process of the hydration of alkali-activated slag (AAS). Using this image analysis technique, we can monitor the induction period that cannot be observed using conventional microcalorimetry techniques. Color variation was recorded across a sequence of 9999 images, which were processed via MATLAB software package. Further, an average pixel value (APV) was determined to represent the color in each image. Reaction parameters, such as color variation velocity v(t), reaction speed ε(t), and hydration degree α(t), that govern the entire hydration process were determined. On the basis of the reaction parameters and a Krstulovic–Dabic kinetic model, integral and differential equations were derived to simulate the three basic processes of AAS hydration. Equations describing the reaction kinetics of AAS with solutions of three different concentrations of NaOH were extracted using this method.

scholarly journals Cement-Based Renders Manufactured with Phase-Change Materials: Applications and Feasibility

2016 ◽  
Vol 2016 ◽  
pp. 1-6 ◽  
Author(s):  
Luigi Coppola ◽  
Denny Coffetti ◽  
Sergio Lorenzi
Keyword(s):  
Compressive Strength ◽  
Phase Change ◽  
Phase Change Materials ◽  
Residential Buildings ◽  
Setting Time ◽  
Drying Shrinkage ◽  
Hydration Kinetics ◽  
Mechanical Performances ◽  
Entrapped Air ◽  
Kinetics Of

The paper focuses on the evaluation of the rheological and mechanical performances of cement-based renders manufactured with phase-change materials (PCM) in form of microencapsulated paraffin for innovative and ecofriendly residential buildings. Specifically, cement-based renders were manufactured by incorporating different amount of paraffin microcapsules—ranging from 5% to 20% by weight with respect to binder. Specific mass, entrained or entrapped air, and setting time were evaluated on fresh mortars. Compressive strength was measured over time to evaluate the effect of the PCM addition on the hydration kinetics of cement. Drying shrinkage was also evaluated. Experimental results confirmed that the compressive strength decreases as the amount of PCM increases. Furthermore, the higher the PCM content, the higher the drying shrinkage. The results confirm the possibility of manufacturing cement-based renders containing up to 20% by weight of PCM microcapsules with respect to binder.

Chemical, Microstructural, and Rheological Characterizations of Binders to Evaluate Aging and Rejuvenation

2017 ◽  
Vol 2632 (1) ◽  
pp. 14-24 ◽  
Author(s):  
Patrícia Hennig Osmari ◽  
Francisco Thiago Sacramento Aragão ◽  
Leni Figueiredo Mathias Leite ◽  
Renata Antoun Simão ◽  
Laura Maria Goretti da Motta ◽  
...  
Keyword(s):  
Digital Image Analysis ◽  
Gel Permeation Chromatography ◽  
Waste Cooking Oil ◽  
Asphalt Binders ◽  
Size Distributions ◽  
Image Analysis Technique ◽  
Cooking Oil ◽  
Atomic Force ◽  
Analysis Technique ◽  
Key Variables

This study evaluated the effects of the commercial product, AR 5, and two alternative products, waste cooking oil and castor oil, in the rejuvenation process of two asphalt binders. The analyses were carried out on microscopic and macroscopic scales on virgin, aged, and rejuvenated binders. Tests in a dynamic shear rheometer were performed to characterize rheological properties of the binders. Then, an atomic force microscope was used to identify microstructural changes in the materials. A digital image analysis technique enabled the quantification of key variables such as area fraction and spatial and size distributions of the binder constituents. Finally, the following chemical tests were performed to identify changes in the chemical composition of the binders resulting from the aging and rejuvenation processes: SARA (which measures saturates, asphaltenes, resins, and aromatics), gel permeation chromatography, and nuclear magnetic resonance. The results obtained from the tests were further compared to identify correlations between the properties evaluated in different scales. The results demonstrated the efficiency and potential of the rejuvenators evaluated in this study. The results also highlighted the importance of the use of advanced techniques to characterize and understand the material aging and rejuvenation processes.

Carbon Fiber Reinforced Cement and Mortar

1990 ◽  
Vol 211 ◽  
Author(s):  
J. R. Linton ◽  
P. L. Berneburg ◽  
E. M. Gartner ◽  
A. Bentur
Keyword(s):  
Carbon Fibers ◽  
Fiber Length ◽  
Length Distribution ◽  
Fiber Breakage ◽  
Image Analysis Technique ◽  
Analysis Technique ◽  
Reinforcing Fibers ◽  
Before And After ◽  
Reinforced Cement ◽  
Critical Fiber Length

AbstractAlthough carbon fibers have high tensile strengths and are chemically inert, their application in cementitious composites is limited due to their brittleness. An image analysis technique employed to determine the length distribution of the reinforcing fibers before and after mixing in cement paste and mortar matrices indicates that substantial fiber breakage occurs during mixing. In paste mixtures, the average fiber length after mixing remains above the critical fiber length, but in mortar mixes the average fiber length falls below the critical fiber length resulting in no significant enhancement of composite flexural properties.

Degradation of hydration kinetics of proton-conducting Ba(Zr0.84Y0.15Cu0.01)O3−δ during conductivity-relaxation experiment

2016 ◽  
Vol 332 ◽  
pp. 299-304 ◽  
Author(s):  
Sung Min Choi ◽  
Jong-Heun Lee ◽  
Jongsup Hong ◽  
Kyung Joong Yoon ◽  
Ji-Won Son ◽  
...  
Keyword(s):  
Conductivity Relaxation ◽  
Hydration Kinetics ◽  
Proton Conducting ◽  
Relaxation Experiment ◽  
Kinetics Of
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